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In this article from Guru of the week, it is said: It is illegal to #define a reserved word. Is this true? I can’t find anything in the norm, and I have already seen programmers redefining new, for instance.

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It's definitively possible to use #define to change the meanings of reserved words. In fact it's often been used in The International Obfuscated C Code Contest entries. It's possible because macros defined by #define are replaced by a separate program before the actual C compiler runs. – Joachim Pileborg Feb 2 '12 at 8:53
    
sure they did not overload the new operator? since the preprocessor runs first the problemwith re-"#define"-ing keywords is that you replace keywords with your replace string, code not expecting this will most likely be broken there after. It is generally a bad idea to do so, why would you want to do that anyway? – ted Feb 2 '12 at 8:53
    
@ted: the idea is to redefine the new keyword in a source file so as to call a platform-specific implementation: #define new newMac on Macintosh and #define new newPc on PC. In other translation units, the corresponding functions will define platform-specific memory allocators. I guess the idea was to continue using new everywhere while having a platform-specific behaviour when it was not possible to rename every call to new. – qdii Feb 2 '12 at 9:06
    
Back in the day, we used to fix Visual Studio 6's incorrect scoping of variables declared in a for loop with #define for if (false) else for – Jack Aidley Mar 4 '13 at 10:13
    
What do you mean by "I have already seen programmers redefining new"? Have you seen an example of this using #define? Or are you referring to overloading the new operator? These are two very different things. – Code-Apprentice Jun 25 '13 at 2:17
up vote 15 down vote accepted

17.4.3.1.1 Macro names [lib.macro.names]

1 Each name defined as a macro in a header is reserved to the implementation for any use if the translation unit includes the header.164)
2 A translation unit that includes a header shall not contain any macros that define names declared or defined in that header. Nor shall such a translation unit define macros for names lexically identical to keywords.

By the way, new is an operator and it can be overloaded (replaced) by the user by providing its own version.

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Note that that rule only applies to sources which include a standard header. It's perfectly legal to redefine a keyword if the translation unit doesn't include a standard header. (It doesn't do much for the readability of the code, however.) – James Kanze Feb 2 '12 at 8:58
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So I’m allowed to #define new so long as my translation unit includes no headers :P ? @JamesKanze: why standard headers? – qdii Feb 2 '12 at 9:05
    
@victor: standard (template) library?? – ted Feb 2 '12 at 9:16
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@victor - The language allows the compiler to know what is in each standard header, so it doesn't have to recompile them each time. Therefore you are forbidden to change them by redefining some of the words in those headers. What you do to your own headers is up to you! – Bo Persson Feb 2 '12 at 9:32
    
@BoPersson In this case, it's more a case of the standard allowing the implementation to use normal C++ code in the standard headers. Can you imagine what might happen if you did #define while for before including <algorithm>. The standard also requires certain "functions" to be macros, so even redefining a keyword after the inclusion of the header could impact things. – James Kanze Feb 2 '12 at 9:47

The corresponding section from C++11:

17.6.4.3.1 Macro names [macro.names]

1 A translation unit that includes a standard library header shall not #define or #undef names declared in any standard library header.
2 A translation unit shall not #define or #undef names lexically identical to keywords.

Paragraph 1 from C++03 has been removed. The second paragraph has been split in two. The first half has now been changed to specifically state that it only applies to standard headers. The second point has been broadened to include any translation unit, not just those that include headers.

However, the Overview for this section of the standard (17.6.4.1 [constraints.overview]) states:

This section describes restrictions on C++ programs that use the facilities of the C++ standard library.

Therefore, if you are not using the C++ standard library, then you're okay to do what you will.

So to answer your question in the context of C++11: you cannot define (or undefine) any names identical to keywords in any translation unit if you are using the C++ standard library.

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+1: interesting – qdii Feb 2 '12 at 10:11

Here's a little thing you can do if you don't want someone to use goto's. Just drop the following somewhere in his code where he won't notice it.

#define goto { int x = *(int *)0; } goto

Now every time he tries to use a goto statement, his program will crash.

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Upvoted for hilarity – Jack Aidley Mar 4 '13 at 10:15
    
@JackAidley yeah, but have you asked yourself what makes it funny? The answer is that humans are sadistic creatures and that's the scare part... +1 for pointing human nature. – doc Dec 26 '14 at 16:52
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This is an undefined behavior and is best to avoid. – Abhijit Apr 18 '15 at 20:39
    
If you think goto is bad, just like that, you should not be writing programs, if you could convince me that one must never use goto I will be very surprised. – iharob Apr 18 '15 at 20:50
    
@iharob Agreed. Finite state machines come to mind as a potentially good use of goto – chbaker0 Apr 18 '15 at 21:03

They're actually wrong there, or at least doesn't tell the whole story about it. The real reason it's disallowed is that it violates the one-definition-rule (which by the way is also mentioned as the second reason why it's illegal).

To see that it's actually allowed (to redefine keywords), at least if you don't use the standard libraries, you have to look at an entirely different part of the standard, namely the translation phases. It says that the input is only decomposed into preprocessor tokens before preprocessing takes place and looking at those there's no distinction between private and fubar, they are both identifiers to the preprocessor. Later when the input is decomposed into token the replacement has already taken place.

It has been pointed out that there's a restriction on programs that are to use the standard libraries, but it's not evident that the example redefining private is doing that (as opposed to the "Person #4: The Language Lawyer" snippet which uses it for output to cout).

It's mentioned in the last example that the trick doesn't get trampled on by other translation units or tramples on other. With this in mind you should probably consider the possibility that the standard library is being used somewhere else which will put this restriction in effect.

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It's not as far as I'm aware illegal - no compiler I've come across yet will generate an error if you do

#define true false

#defining certain keywords are likely to generate errors in compilation for other reasons. But a lot of them will just result in very strange program behaviour.

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Such definitions are likely to cause problems with the standard library. – James Kanze Feb 2 '12 at 9:49
    
Possibly, on some parts. The problem I have is that though it's illegal, there doesn't seem to be any requirement for the compiler to issue a diagnostic. And depending on which bits of the standard library you use and where you put that #define in your code, the program could compile fine. – Tom Tanner Feb 2 '12 at 11:01
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Like so many things, it's undefined behavior. It wouldn't be difficult for a compiler to detect it, and cause a compile time error, but I don't know of any that do. – James Kanze Feb 2 '12 at 11:06
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-1 because it IS illegal, cf other answer. – qdii Mar 4 '13 at 10:32
    
illegal but almost invariably ignored – Tom Tanner Mar 5 '13 at 10:51

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